unit 1 *gby12* higher tier · carbon dioxide acts as a greenhouse gas. the diagram shows how carbon...
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11999
Centre Number
Candidate Number
*GBY12*
*GBY12*
General Certificate of Secondary EducationJanuary 2019
Biology
Unit 1Higher Tier
[GBY12]MONDAY 14 JANUARY, MORNING
TIME1 hour 30 minutes.
INSTRUCTIONS TO CANDIDATESWrite your Centre Number and Candidate Number in the spaces provided at the top of this page.You must answer the questions in the spaces provided. Do not write outside the boxed area on each page or on blank pages.Complete in black ink only. Do not write with a gel pen.Answer all eleven questions.
INFORMATION FOR CANDIDATESThe total mark for this paper is 100.Figures in brackets printed down the right-hand side of pages indicate the marks awarded to each question or part question.Quality of written communication will be assessed in Questions 3 and 11(b)(ii).
*28GBY1201*
*28GBY1201*
*28GBY1202*
*28GBY1202*
11999
1 The diagram shows part of the carbon cycle.
Carbon dioxide in atmosphere
Coal/oil
Death
Feeding
A
B
C
Carbon compounds in animals
Carbon compounds in plants
Source: Principal Examiner
Look at the diagram.
(a) Name processes A, B and C.
A ___________________________________ [1]
B ___________________________________ [1]
C ___________________________________ [1]
*28GBY1203*
*28GBY1203*
11999[Turn over
(b) The graph shows how the temperature of the Earth and the carbon dioxideconcentration in the atmosphere have changed over a five-hundred-year period.
Look at the graph.
(i) Explain how, after 1910, the graph provides evidence to suggest thatcarbon dioxide is a major cause of global warming.
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(ii) Suggest one reason for the change in carbon dioxide concentration from1910 to 2000.
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Image removed due to copyright.
*28GBY1204*
*28GBY1204*
11999
Carbon dioxide acts as a greenhouse gas.
The diagram shows how carbon dioxide acts as a greenhouse gas.
Earth Earthheat
from the Sun
layer with low carbon dioxide
layer with higher carbon dioxide
Source: Principal Examiner
(c) Use the diagram to help explain how a build-up of carbon dioxide in the atmosphere affects the temperature of the Earth.
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*28GBY1205*
*28GBY1205*
11999[Turn over
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*28GBY1206*
*28GBY1206*
11999
2 The photograph shows apparatus used by a group of students to study the biodiversity of two forests.
apparatus X
Source: Principal Examiner
Look at the photograph.
(a) Name apparatus X.
___________________________________ [1]
The students estimated the percentage cover of a number of plant species in the two forests.
Table 1 shows their results.
Table 1
Plant speciesPercentage cover
Forest A Forest B
Wild garlic 4 43
Ivy 2 39
Bluebells 50 0
Moss 6 0
Buttercups 15 20
Wood Anemone 40 0
*28GBY1207*
*28GBY1207*
11999[Turn over
Look at Table 1.
The students concluded that forest A had greater biodiversity.
(b) Use evidence from Table 1 to explain how they reached this conclusion.
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The students also measured three abiotic factors in the two forests.
Table 2 shows their measurements.
Table 2
Abiotic factor Forest A Forest B
Light intensity / arbitrary units 77 11
Soil pH 5.5 5.5
Temperature / °C 15 12
Look at Table 2.
(c) Use evidence from Table 2 to explain why forest A had greater biodiversity than forest B.
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*28GBY1208*
*28GBY1208*
11999
3 Vitamins are an important part of our diet. You are provided with an orange and a grapefruit. • Describe the steps you would take to compare the amount of vitamin C in
the orange and the grapefruit. • Name the reagent you would use and describe the colour change when
vitamin C is present. • Explain how the results would show which fruit contained more vitamin C.
In this question, you will be assessed on your written communication skills including the use of specialist scientific terms.
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*28GBY1209*
*28GBY1209*
11999[Turn over
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*28GBY1210*
*28GBY1210*
11999
4 The key shows how living organisms can be classified into five kingdoms.
Cell wall present
Living organism
Nucleus present
MulticellularKingdom A
Kingdom B
Kingdom C Photosynthesis
Kingdom D Kingdom E
no yes
no yes
no yes
no yes
Source: Principal Examiner
(a) Use the key to identify kingdoms A, B and C.
A _______________________________ [1]
B _______________________________ [1]
C _______________________________ [1]
(b) Use information from the key to give two features kingdoms C and D have in common.
1. ____________________________________________________________ [1]
2. ____________________________________________________________ [1]
*28GBY1211*
*28GBY1211*
11999[Turn over
(c) Explain why viruses are difficult to classify.
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Classification is used to identify organisms.
(d) Give one other reason why classification is needed.
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*28GBY1212*
*28GBY1212*
11999
5 Insulin is a hormone which helps control blood glucose level.
(a) What is a hormone?
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(b) Where is insulin produced?
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(c) The table shows blood glucose levels of two people, A and B, between 07:00 in the morning and 15:00 in the afternoon.
Time of dayBlood glucose level/mg per 100 cm3
Person A Person B07:00 90 12009:00 120 20011:00 88 13013:00 110 19015:00 100 120
(i) Complete the graph by plotting the data for person A. [3]
*28GBY1213*
*28GBY1213*
11999[Turn over
220
200
180
160
140
120
100
80
60
40
20
0
Blo
od g
luco
se le
vel i
n bl
ood/
mg
per 1
00 cm
3
07:00 08:00 09:00 10:00Time of day
11:00 12:00 13:00 14:00 15:00
Person B
*28GBY1214*
*28GBY1214*
11999
(ii) Person A ate breakfast at 06:45.
Describe the processes which occurred to cause their blood glucose level to rise between 07:00 and 09:00 in the morning.
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(iii) Give evidence from the graph which suggests person B has diabetes.
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(d) (i) Name the hormone produced in response to low blood glucose levels.
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(ii) Name the organ in which this hormone acts.
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*28GBY1215*
*28GBY1215*
11999[Turn over
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*28GBY1216*
*28GBY1216*
11999
6 A student set up an experiment to investigate the effect of temperature on the digestion of egg white.
Egg white is a protein.
The diagram shows one test tube she used.
test tube
enzyme solution
egg white protein
The student carried out the experiment at six different temperatures.
She recorded the time taken to break down the egg white protein in each test tube at each temperature.
The table shows her results.
Temperature/°C Time taken to break down egg white protein /minutes
10 2020 1230 640 450 860 30
(a) Give two variables that should be controlled in this experiment.
1. _____________________________________ [1]
2. _____________________________________ [1]
*28GBY1217*
*28GBY1217*
11999[Turn over
(b) (i) Name the type of enzyme used by the student in the experiment.
______________________________________ [1]
(ii) Name the products when egg white protein is broken down.
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(c) (i) Describe and explain the results of the experiment from 10°C to 40ºC.
Description _____________________________________________________
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Explanation _____________________________________________________
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(ii) Explain the results of the experiment at 60°C.
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*28GBY1218*
*28GBY1218*
11999
7 (a) Complete the balanced chemical equation for aerobic respiration of glucose.
C6 H12 O6 + + + Energy
[3]
(b) Muscle cells can respire aerobically and anaerobically.
(i) What is meant by the term anaerobic?
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(ii) Compare the amount of energy released by anaerobic respiration with that released by aerobic respiration.
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(c) Give two differences in the substances produced by anaerobic respiration in human muscle cells and yeast cells.
1. _______________________________________________________________
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2. _______________________________________________________________
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*28GBY1219*
*28GBY1219*
11999[Turn over
8 A scientist investigated the response of plant shoots to light from one side.
These responses are caused by the chemical auxin.
(a) What type of chemical is auxin?
__________________________________ [1]
The diagram shows two of his experiments.
Experiment 1
plant shoot
72 hours
foil cap
72 hours
impermeable metal strip
72 hours
permeable jelly
72 hours
plant shoot
72 hours
foil cap
72 hours
impermeable metal strip
72 hours
permeable jelly
72 hours
Light 72 hours
plant shoot
Experiment 2
plant shoot
72 hours
foil cap
72 hours
impermeable metal strip
72 hours
permeable jelly
72 hours
plant shoot
72 hours
foil cap
72 hours
impermeable metal strip
72 hours
permeable jelly
72 hours
Light 72 hours
foil cap
(b) Use the results from experiments 1 and 2 to explain which part of the plant shoot is sensitive to light.
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*28GBY1220*
*28GBY1220*
11999
The diagram shows another two experiments he carried out.
Experiment 3
plant shoot
72 hours
foil cap
72 hours
impermeable metal strip
72 hours
permeable jelly
72 hours
plant shoot
72 hours
foil cap
72 hours
impermeable metal strip
72 hours
permeable jelly
72 hours
plant shoot
72 hours
foil cap
72 hours
impermeable metal strip
72 hours
permeable jelly
72 hours
Light 72 hours
impermeablemetal strip
Experiment 4
plant shoot
72 hours
foil cap
72 hours
impermeable metal strip
72 hours
permeable jelly
72 hours
plant shoot
72 hours
foil cap
72 hours
impermeable metal strip
72 hours
permeable jelly
72 hours
plant shoot
72 hours
foil cap
72 hours
impermeable metal strip
72 hours
permeable jelly
72 hours
plant shoot
72 hours
foil cap
72 hours
impermeable metal strip
72 hours
permeable jelly
72 hours Light 72 hours
permeable jelly
(c) Describe and explain the difference in the responses shown by the plant shoots in experiments 3 and 4.
Description _______________________________________________________
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Explanation _______________________________________________________
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*28GBY1221*
*28GBY1221*
11999[Turn over
(d) The table shows three commercial uses of chemicals similar to auxin.
(i) Complete the table.
Commercial use How the chemical works
Causes some plants to die by excessive growth
Rooting powder
Causes a callus of cells to develop into a stem and roots
[3]
(ii) Give one other commercial use of chemicals that are similar to auxin.
____________________________________________________________ [1]
*28GBY1222*
*28GBY1222*
11999
9 The table shows the average daily energy requirements for a man at different ages, who has low activity levels.
Age/years Average daily energy requirement/kcal
19–49 255050–59 245060–69 238070–79 2330
(a) Describe how the man’s average daily energy requirement changes with age.
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The man matched his daily food intake to his average daily energy requirements until the age of 49.
He continued the same daily intake for the next ten years.
(b) Describe and explain what you expect to happen to the man’s body mass during this ten-year period.
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*28GBY1223*
*28GBY1223*
11999[Turn over
Basal Metabolic Rate (BMR) is the energy the body uses while at complete rest (kcal day−1).
The equation below is used to calculate a man’s BMR.
BMR = 88 + [13.4 × mass in kg] + [5 × height in cm] − [6 × age in years]
(c) (i) Use the equation to calculate the BMR for a 50-year-old male who is 180 cm tall and weighs 100 kg.
Show your working.
_______________ kcal day−1 [3]
(ii) Compare this man’s BMR with the average daily requirement for the 50-year-old man given in the table.
Suggest a reason for the difference.
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*28GBY1224*
*28GBY1224*
11999
10 The diagram shows an experiment to investigate gas exchange.
Tube A Tube B Tube C
plant
water bath at 25°C
muslin that allows some light through
insect larvae
red hydrogencarbonate indicator
The three tubes were placed in a water bath in a well-lit place for 24 hours.
The graph shows the results for the carbon dioxide concentration in each tube over the 24 hours.
−4
−3
−2
−1
1
0
2
3
4
4 6 8 10 12 14 16 18 20 22 24
Car
bon
diox
ide
conc
entra
tion/
arbi
trary
uni
ts
Time/hours2
(a) In the boxes write the letter A, B or C to match each result line to the tube it represents. [2]
*28GBY1225*
*28GBY1225*
11999[Turn over
(b) Complete the table to show the colour of the hydrogencarbonate indicator in each tube after 24 hours.
Tube Colour of hydrogencarbonate indicator after 24 hours
A
B
C red [2]
(c) Use evidence from the graph and the table to explain the result for tube C.
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(d) Describe and explain how decreasing the temperature to 15°C would change the result in tube B.
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*28GBY1226*
*28GBY1226*
11999
11 The table shows some of the processes in the nitrogen cycle.
(a) Complete the table by filling in the empty boxes.
ProcessChemical reaction
From To
nitrification nitrates
nitrogen gas
nitrogen fixation
protein ammonium compounds[6]
(b) Spreading excessive nitrate fertilisers on fields can lead to eutrophication.
(i) Give one way the nitrate from fertilisers spread on fields can reach waterways.
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*28GBY1227*
*28GBY1227*
11999
(ii) Explain how nitrates entering a lake can cause eutrophication.
Describe how eutrophication affects the aquatic animals. In this question, you will be assessed on your written communication
skills including the use of specialist scientific terms.
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Permission to reproduce all copyright material has been applied for.In some cases, efforts to contact copyright holders may have been unsuccessful and CCEAwill be happy to rectify any omissions of acknowledgement in future if notified.
Examiner Number
For Examiner’suse only
QuestionNumber Marks
1 2 3 4 5 6 7 8 91011
TotalMarks
11999/5
*28GBY1228*
*28GBY1228*
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THIS IS THE END OF THE QUESTION PAPER
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